The present study investigates a model for the large-scale simulation of turbulent non-premixed flames. In these flames, fuel and oxidizer arrive separately in the reaction zone.Easier to design than premixed flames (no prior mixing of the reagents in proportions compatible with the flammability limits), these flames are also safer since there is no risk of a flashback, which motivates their use in a certain number of situations (industrial furnaces, rocket motors, etc.).On the other hand, they are generally less efficient, and the inability to control their maximum temperature favors the formation of nitrogen oxides.Numerical simulation has now become essential to help design efficient burners. Despite the continued growth in the power of ...